Plant Simulation Decorative Cloth/Mesh

ABSTRACT

The present invention relates to a plant simulation decorative cloth/mesh, comprising a cloth or mesh, the simulation plant on one or both sides of the cloth or mesh being sewn to the cloth or mesh. Advantages: (1) The present invention creates a precedent for the stereoscopic plant simulation cloth/mesh, expanding the applications and uses of the cloth; 2. the present invention not only can decorate a variety of body surface with a stereoscopic sense, but also achieves a stereoscopic simulation greening and shading effect of the city, home, garden, roofing, garage, seaside resort and specific places, creating a decorative effect with green leaves, flowers and fruits; 3. the present invention not only enjoys high manufacturing efficiency, low cost, and convenient transport by folding, but also avoids the phenomenon that the green leaves, flowers and fruits come off at their roots from the cloth or mesh because of the reliable flexibility and folding performance of the cloth/mesh used for connection of the green leaves, flowers and fruits, resulting no environmental pollution, characterized by firm and reliable connection, both beautifying the environment and achieving the sun-shading purpose.

RELATED APPLICATION

This application is a Continuation in Part of application Ser. No. 13/637,706 which is a National Stage entry of International Application No. PCT/CN2010/075058 filed on Sep. 27, 2012.

FIELD OF TECHNOLOGY

The present invention, belonging to the fabric-manufacturing field, relates to a plant simulation decorative cloth/mesh mainly used for decoration of the elevation, plane and irregular surface, resulting no second environmental pollution and having the plant simulation decorative effect.

BACKGROUND TECHNOLOGIES

A patent application, having an authorized announcement number CN201245738 Y and entitled “High Simulation Fabric Suitable for Weaving by a Water Jet Loom”, discloses a fabric that is formed by the weaving yarns interwoven with each other respectively along the weft and warp direction, the weaving yarn including a natural fiber layer and a chemical fiber layer wrapping the natural fiber layer. The natural fiber layer is a cotton fiber layer. The chemical fiber layer is a poly(trimethylene terephthalate) fiber layer. The fabric not only can be suitable for weaving by a water jet loom, but also has the comprehensive advantages of the natural fiber and chemical fiber fabrics, extensively applicable to weaving of the high simulation fabric.

A patent application, having a publication number CN1580424A and entitled “A Method of Greening Hillside”, discloses that the simulation plant mesh is fixed on the hillside for greening the hillside, with the liana planted in the mesh of the simulation plant mesh.

The above background technologies have the following disadvantages: None of them can form the simulation plant fabric and thus decorate the regular or irregular surface with the simulation plant cloth or mesh.

CONTENTS OF INVENTION

Design purpose: In order to avoid the disadvantage in the background technologies, the present invention designs a plant simulation decorative cloth/mesh mainly used for decoration of the elevation, plane and irregular surface, resulting no second environmental pollution and having the plant simulation decorative effect.

Design scheme: The following design scheme is adopted in order to attain the above design purpose: 1. One of the technical features of the present invention is a design that the simulation plant is covered on one or both sides of the cloth or mesh. This is done for the following purpose: Because the cloth is nonmetallic cloth or metal wire cloth that have good flexibility, it allows the imitation plant to be expediently fixed thereon, forming a surface covered with the leaves on one or both sides. 2. The second of the technical features of the present invention is a design that the simulation plant is composed of two or more green leaves that have an overall structure of connection in strip form at their roots with each other. This is done for the following purpose: Because the imitation plant is composed of two or more green leaves that have an overall structure of connection in strip form at their roots with each other, the roots of the two or more green leaves can be fixed on the cloth or mesh expediently and firmly; or because the imitation plant is composed of two or more green leaves and flowers that have an overall structure of connection at their roots with each other, the roots of the two or more green leaves and the roots of the flowers can be fixed on the cloth or mesh expediently and firmly; or because the imitation plant is composed of two or more green leaves and fruits that have an overall structure of connection at their roots with each other, the roots of the two or more green leaves and the roots of the fruits can be fixed on the cloth or mesh expediently and firmly. 3. The third of the technical features of the present invention is a design that the nonmetallic or metallic mesh is woven by a strip longitudinal mesh tendon and a strip horizontal mesh tendon formed by the multiple warps and wefts, with the multiple strip longitudinal cloth tendons and the multiple strip horizontal cloth tendons forming holes therebetween. This is done for the following purposes: (1) The face formed by the multiple strip longitudinal and horizontal mesh tendons composed of the metallic or nonmetallic warps and wefts is of a porous mesh, where not only the longitudinal and horizontal mesh tendon face can satisfy the combination with the roots of the green leaves, but also the strip mesh tendon has high strength, good flexibility, and easy folding performance; (2) because the longitudinal and horizontal strip mesh tendons are composed of multiple warps and wefts, and the tiny holes within the longitudinal and horizontal strip mesh tendons can not only allow the sewing needle to go through but also be easy to be fixed by splicing and bonding, the longitudinal and horizontal strip mesh tendons can allow the roots, flowers and fruits connected with the green leaves to be fixed to the strip mesh tendon conveniently, fast and reliably; (3) this design not only enjoys high manufacturing efficiency, low cost, and convenient transport by folding, but also avoids falling off of the green leaves, not to mention the secondary environmental pollution. 4. The fourth of the technical features of the present invention is a design that the nonmetallic cloth or the metal wire cloth is woven by a strip longitudinal cloth tendon and a strip horizontal cloth tendon formed by the multiple warps and wefts, with the multiple strip longitudinal cloth tendons and the multiple strip horizontal cloth tendons forming porous nonmetallic cloth or metal wire cloth therebetween. This is done for the following purposes: (1) The face formed by the multiple strip longitudinal and horizontal cloth tendons composed of the metallic and nonmetallic warps and wefts or the nonmetallic warps and wefts is of a porous cloth, where not only the longitudinal and horizontal cloth tendon face can satisfy the combination with the roots of the green leaves, but also the strip cloth tendon has high strength, good flexibility, and easy folding performance; (2) because the longitudinal and horizontal strip cloth tendons are woven with multiple warps and wefts, and can not only allow the sewing needle to go through but also be easy to be fixed by splicing, bonding, strapping, winding and snapping, they can fix the roots connected with the green leaves, flowers and fruits to the strip cloth tendon conveniently, fast and reliably; (3) this design not only enjoys high manufacturing efficiency, low cost, and convenient transport by folding, but also avoids falling off of the green leaves, not to mention the secondary environmental pollution.

Technical solution 1: A plant simulation decorative cloth/mesh is provided, comprising a cloth or mesh, which is covered on one or both sides with the simulation plant.

Technical solution 2: A plant simulation decorative mesh, including the nonmetallic mesh or the metallic mesh, which is woven by a strip longitudinal mesh tendon and a strip horizontal mesh tendon formed by the multiple warps and wefts, the multiple strip longitudinal mesh tendons and the multiple strip horizontal mesh tendons forming holes therebetween, the root of the simulation plant being fixed on the multiple strip longitudinal mesh tendons and the multiple strip horizontal mesh tendons and covering one or both sides of the nonmetallic or metallic mesh.

Technical solution 3: A plant simulation decorative cloth, including the nonmetallic cloth or the metal wire cloth, which is woven by a strip longitudinal cloth tendon and a strip horizontal cloth tendon formed by the multiple warps and wefts, the multiple strip longitudinal cloth tendons and the multiple strip horizontal cloth tendons forming holes therebetween, the root of the simulation plant being fixed on the multiple strip longitudinal cloth tendons and the multiple strip horizontal cloth tendons and covering one or both sides of the nonmetallic cloth or the metal wire cloth.

Technical solution 4: A method of manufacturing the plant imitation decorative mesh comprising the mesh is provided, including the following steps: First a weaving program constituted by the longitudinal mesh tendon and the horizontal mesh tendon is inputted into a yarn woven machine, and the mesh composed of the multiple strip longitudinal mesh tendons and the multiple strip horizontal mesh tendons is woven by the yarn woven machine; and then the simulation plant is fixed on the tendon face of the multiple strip longitudinal mesh tendons and the multiple strip horizontal mesh tendons by sewing, splicing and bonding, with one or both sides of the mesh covered.

Technical solution 5: A method of manufacturing the plant imitation decorative cloth comprising the cloth is provided, including the following steps: First a weaving program constituted by the longitudinal cloth tendon and the horizontal cloth tendon is inputted into a yarn woven machine, and a porous cloth composed of the multiple strip longitudinal cloth tendons and the multiple strip horizontal cloth tendons is woven by the yarn woven machine; and then the simulation plant is fixed on the tendon face of the multiple strip longitudinal cloth tendons and the multiple strip horizontal cloth tendons by sewing, splicing and bonding, with one or both sides of the porous cloth covered.

The present invention has the following features compared to the background technologies: 1. The present invention creates a precedent for the stereoscopic plant simulation cloth/mesh, expanding the applications and uses of the cloth; 2. the present invention not only can decorate a variety of body surface with a stereoscopic sense, but also achieves a stereoscopic simulation greening and shading effect of the city, home, garden, roofing, garage, seaside resort and specific places, creating a decorative effect with green leaves, flowers and fruits; 3. the present invention not only enjoys high manufacturing efficiency, low cost, and convenient transport by folding, but also avoids the phenomenon that the green leaves, flowers and fruits come off at their roots from the cloth or mesh because of the reliable flexibility and folding performance of the cloth/mesh used for connection of the green leaves, flowers and fruits, resulting no environmental pollution, characterized by firm and reliable connection, both beautifying the environment and achieving the sun-shading purpose.

BRIEF DESCRIPTIONS OF THE DRAWINGS

FIG. 1 is a structural schematic view of the first embodiment of the plant imitation decorative cloth/mesh.

FIG. 2 is a structural schematic view of the green leaves.

FIG. 3 is a structural schematic view of the stem mounted on plant simulation decorative cloth/mesh.

DETAILED DESCRIPTION OF THE EMBODIMENTS Example 1

As shown in FIGS. 1 and 2, a plant simulation decorative cloth/mesh is provided, including a cloth or mesh 1; the cloth is the nonmetallic cloth or the metal wire cloth, and the nonmetallic cloth refers to a sunscreen nylon cloth, a sunscreen plastic cloth, a sunscreen fabric cloth, a sunscreen non-woven fabric, and a sunscreen membrane, the manufacturing process thereof, as an existing technology, being no longer described here; the mesh is the nonmetallic mesh or the metallic mesh, the nonmetallic mesh referring to a sunscreen nylon mesh, a sunscreen plastic mesh, a sunscreen fabric mesh, a sunscreen non-woven fabric mesh, and a sunscreen mesh membrane, the metallic mesh referring to a stainless steel mesh, a copper mesh, an aluminum mesh, and an alloy mesh. The cloth or mesh 1 is covered on one or both sides with the simulation plant 2, whose roots and/or leaves are fixed on the cloth or mesh 1 in such fixing ways as sewing, splicing, bonding, strapping, snaps and winding.

Example 1-1

On the basis of Example 1, the imitation plant 2 is composed of two or more green leaves 3 and 4, which have an overall structure of strip connection at their roots 5 with each other and are fixed on the cloth or mesh at their roots or leaves.

Example 1-2

On the basis of Example 1, the imitation plant is composed of two or more green leaves 3 and 4 and flowers, the roots 5 of the two or more green leaves 3 and 4 and the roots of the flowers being connected with each other and fixed on the cloth or mesh; or the roots or leaves of the two green leaves and flowers are fixed on the cloth or mesh.

Example 1-3

On the basis of Example 1, the imitation plant is composed of two or more green leaves 3 and 4 and fruits, the roots 5 of the two or more green leaves 3 and 4 and the roots of the fruits being connected with each other and fixed on the cloth or mesh; or the leaves of the two or more green leaves 3 and 4 and the roots of the fruits are fixed on the cloth or mesh.

Example 1-4

On the basis of Example 1, the two or more green leaves 3 and 4 are connected at their roots 5 with each other, the whole piece of fabric being formed by hot stamping, the manufacturing process thereof, as an existing technology, being no longer described here.

What needs to be understood is as follows: Although the above examples make a more detailed text description of the design concept of the present invention, the text description is just a simple text description of the design concept of the present invention, rather than restriction of the design concept of the present invention; any combination, addition and amendment not beyond the design concept of the present invention fall within the scope of protection of the present invention.

In a preferred embodiment is a stem that connects the leaves of a simulation plant to the plant simulation decorative cloth. The stem is a connector that is comprised of metal wire or wires and a fabric covering, for example cotton. The combination of these materials gives the stem a unique physical property of being flexible yet elastic. This is exhibited in the way it gives the leaves a life-like realism effect in the way the leaves shake and/or move upon any disturbance. The stem can be sewn or glued onto the cloth, by machine. If sewn onto the cloth, the extended part of the stem's cotton fabric covering is sewn onto the cloth. The metal wire can be copper or aluminum or iron or titanium or copper alloy or brass, aluminum alloy, titanium alloy, with a cross-sectional area of 1.5, or 2.5, or 4, or 6 square millimeter. Other unique properties of the stem are that it is more slender than stems without the present invention's metal wire; the stem has a better stereoscopic effect than stems without the present invention's metal wire for supporting the standing of the plant; the plant stem can flexibly bend or be set at different angles according to a user's requirements, and then return elastically to its original position; and the leaves can swing slightly so that the simulation plant looks life-like.

This embodiment is illustrated by FIG. 3 wherein the stem which is comprised of metal wires and wrapped in fabric, connects the simulation leaf to the simulation decorative cloth. 

What is claimed is:
 1. A method of manufacturing the plant imitation decorative mesh comprising the mesh, characterized in that: first a weaving program constituted by the longitudinal mesh tendon and the horizontal mesh tendon is inputted into a yarn woven machine, and the mesh composed of the multiple strip longitudinal mesh tendons and the multiple strip horizontal mesh tendons is woven by the yarn woven machine; and then the simulation plant is fixed on a tendon face of the multiple strip longitudinal mesh tendons and the multiple strip horizontal mesh tendons by sewing, splicing, bonding, strapping, winding, and snapping, with one or both sides of the mesh covered.
 2. The method of manufacturing the plant simulation decorative mesh according to claim 1, characterized in that: the mesh is the nonmetallic mesh or the metallic mesh.
 3. A method of manufacturing the plant imitation decorative cloth comprising the cloth, characterized in that: first a weaving program constituted by the longitudinal cloth tendon and the horizontal cloth tendon is inputted into a yarn woven machine, and a porous cloth composed of the multiple strip longitudinal cloth tendons and the multiple strip horizontal cloth tendons is woven by the yarn woven machine; and then the simulation plant is fixed on the tendon face of the multiple strip longitudinal cloth tendons and the multiple strip horizontal cloth tendons by sewing, splicing and bonding, with one or both sides of the porous cloth covered.
 4. The method of manufacturing the plant simulation decorative cloth according to claim 3, characterized in that: the cloth is the nonmetallic cloth or the metal wire cloth.
 5. The plant simulation decorative cloth according to claim 4, characterized in that: the nonmetallic cloth refers to a sunscreen nylon cloth, a sunscreen plastic cloth, a sunscreen fabric cloth, a sunscreen non-woven fabric, and a sunscreen membrane.
 6. The plant simulation decorative cloth according to claim 4, characterized in that: the metal wire cloth refers to a fabric containing about 3%-8% metal wire and formed by the drawn metal wire that is processed into the metallic fiber and transplanted into the cloth.
 7. A metallic wire-containing plant simulation decorative cloth characterized in that: the metal wire cloth is woven with a strip longitudinal cloth tendon and a strip horizontal cloth tendon formed by the multiple warps and wefts, the multiple strip longitudinal cloth tendons and the multiple strip horizontal cloth tendons forming holes therebetween, roots of the simulation plant being sewn, or fixed, on the multiple strip longitudinal cloth tendons and the multiple strip horizontal cloth tendons and covering one or both sides of the metal wire-containing cloth, the cloth comprising about 3%-8% metal wire formed as a drawn metal wire that is processed into a metallic fiber and woven into the cloth whereby the cloth is of such flexibility that it can decorate a regular or irregular surface having an overall stereoscopic effect.
 8. A plant simulation decorative cloth as in claim 7, characterized in that: a stem connects a leaf or a flower of a simulated plant to a plant simulation decorative cloth, and in which the stem is comprised of metal wires and a fabric.
 9. The invention according to claim 8, characterized in that: the stem is comprised of metal wires that are covered with a cotton fabric.
 10. The invention according to claim 9, characterized in that: the metal wire is chosen from the group comprising of copper, aluminum, iron, titanium, brass, aluminum alloy or titanium alloy.
 11. The invention according to claim 8, characterized in that: the stem is sewn to the cloth.
 12. The invention according to claim 8, characterized in that: the stem is glued to the cloth.
 13. The invention according to claim 10, characterized in that: the wire has a cross-sectional area of 1.5 sq mm or 2.5 sq mm or 4 sq mm or 6 sq mm. 